Add to ORKGEstuarine fish assemblages are undergoing rapid change due to invasions of non-native species and physicochemical alteration of their habitats. Here, we examine the novel fish assemblages of the upper San Francisco Estuary (SFE) by first placing the fishes into ecological assemblages (EAs) of species that co-occur based on salinity, macrohabitat, and diet. We then used the morphological characteristics of each species to place them into functional groups (FGs) or potentially functionally independent species (FIS). Our question was: are there native and non-native species that occupy a similar niche in ecomorphological space, and thus potentially interact? Then, based on our results, we sought to understand if there is evidence that native s...
Abstract Zooplankton are an important trophic link and a key food source for many larval fish specie...
Historically, aquatic ecosystem restoration has attempted to return a region to past or pristine con...
Assessing trait-environment relationships is crucial for predicting effects of natural and human-ind...
The rate of alien species introductions is increasing in aquatic ecosystems, but many invaders appea...
Predicting patterns of abundance and composition of biotic assemblages is essential to our understan...
We examined the spatial and temporal distributions of fishes at a reference and three restored marsh...
In the chapter we summarize the current state of knowledge regarding the assemblages of fish species...
As the effects of climate change continue to intensify, non-native species are becoming more prevale...
Estuarine and coastal ecosystems face both large scale physical environmental stresses from climate ...
We investigated the distributional patterns of shallow-water fish and their environmental correlates...
As the effects of climate change continue to intensify, non-native species are becoming more prevale...
Anthropogenic activities have left no part of the global ecosystem untouched; not even the highest m...
Stream fish faunas are being increasingly subjected to non-native fishes. Successful establishment o...
Functional trait theory provides a mechanistic framework to understand change in community compositi...
International audienceThe utility of taxonomic and functional approaches in assessing the structure ...
Abstract Zooplankton are an important trophic link and a key food source for many larval fish specie...
Historically, aquatic ecosystem restoration has attempted to return a region to past or pristine con...
Assessing trait-environment relationships is crucial for predicting effects of natural and human-ind...
The rate of alien species introductions is increasing in aquatic ecosystems, but many invaders appea...
Predicting patterns of abundance and composition of biotic assemblages is essential to our understan...
We examined the spatial and temporal distributions of fishes at a reference and three restored marsh...
In the chapter we summarize the current state of knowledge regarding the assemblages of fish species...
As the effects of climate change continue to intensify, non-native species are becoming more prevale...
Estuarine and coastal ecosystems face both large scale physical environmental stresses from climate ...
We investigated the distributional patterns of shallow-water fish and their environmental correlates...
As the effects of climate change continue to intensify, non-native species are becoming more prevale...
Anthropogenic activities have left no part of the global ecosystem untouched; not even the highest m...
Stream fish faunas are being increasingly subjected to non-native fishes. Successful establishment o...
Functional trait theory provides a mechanistic framework to understand change in community compositi...
International audienceThe utility of taxonomic and functional approaches in assessing the structure ...
Abstract Zooplankton are an important trophic link and a key food source for many larval fish specie...
Historically, aquatic ecosystem restoration has attempted to return a region to past or pristine con...
Assessing trait-environment relationships is crucial for predicting effects of natural and human-ind...